Cash register



Filed y 15. 1925 10 Sheets-Sheet 1 Berni: M. Shipley, B

"i attorneqiw 8. M. SHIPLEY Dec. 29, 1931.

CASH REGISTER Filed July 15, 1925 10 Sheets-Sheet 2 B. M. SHlPLEY CASH REGISTER Dec. 29, 1931.

Filed July 13, 1925 lOWSheetS-Sheet 5 gwum'vbo't Bemil M. Shipl'ey LVJ/ M is m B. M. SHIPLEY CASH REGISTER Dec. 29, 1931.

Filed July 13, 19 25 10 Sheets-Sheet 4 gvvuwnto'c Berni: Shipley Hi5 attic: new

8. M. SHIPLEY CASH REGISTER Dec. 29, 1931.

Filed July 1925 10 Sheets-Sheet 5 gww'nto'a Berni: M. Shipley 1 M His act M1 4 B. M. SHIPLEY CASH REGISTER Deg. 29, 1931.

Filed July 15, 1925 10 Sheets-Sheet 6 ouoooo oumo FIG.12

. u 1 u uh M W% a w a 3M .5 .u H n M Dec. 29, 1931. M. SHIPLEY 1,838,579

' CASH REGISTER Filed July 13, 19 25 10 Sheets-Sheet 7 gn-uenfoz Dec. 29, 1931. M SHIPLEY 1,838,579

/ CASH REGISTER Filed July 15, 1925 10 Sheets-Sheet 8 I98 I v Q A '1" C Bernis' M. Shipley By W] %7%% Hi alto can o! Dec. 29, 1931. s L 1,838,579

CASH REGISTER Filed July Is, 1925 10 Sheets-Sheet 1o 3 gw'uewfoa 222 73 Berni: M. Shipley ww L BERNIs-MJSHIPLEY, or nATrorn'ongo,iissieiaonnx MESNE Assrcmgnn'rsmo The l i nar onan casn' nne srnn coiarAiaY, or Dam on, onro i .conroaarionor manyqesn; nEGIsrE'n a plications-lea Ju1'y 13, 1925, Serial No. 43,245.

This invention relates to cash registers,

and 1 more particularly tomachines, of the type: shQWn. and described in Letters .Patent of,-the United States, No. 1,394,256, issued to F. L. Fuller on October 18 1921, andNo. 1,613,796, issued to. applicant on March 1, 192

01 .6 QbjCt= of this invention is to provide a machine of thetype above mentioned, which has a plurality of totalizers, with a series ofindicators to show which of the totalizers have been operated.

Another object is theprovision of -mechanism for actuating selected indicators only when selectedtotalizers are engaged with their actuators for adding.

Still another. object is the provision-, of simple, compact and inexpensive indicating means readily. movable into non-indicating.

positionlwhen'desired. p v

. WVith these and incidental :Obj ects in view,

the-invention consists of certain novel fea tures of construction and-combinations of 1 parts, the essential elements of Which are set forth in appendedclaims and a preferred form or embodimentof whichis hereinafter described withfreferenceto the drawings which accompany and form partofthis specification.

Qf saiddrawings: Fig. 1-..is a perspective View of the-machine? to which this; invention a is shown .applied.

Fig- 2 is a sectional view'through-the Ema chine, taken.; just tot-he right of-thesecond or middle control keybank'.

Fig. 3 is adetail viewshowingthe totalizerindicators, and the totalizer selecting mechanism by which the indicators are also selected.

Fig.- 4 is a detail view of the mech-anism for resetting one ofthe groupsfoffindicators.

Fig. 5is aside elevation of 'a part of the, totaliaer engaging and disengaging mecha-, nism, together wlth the means for select ng and operating the indicators in the groupcorresponding to the'front totalizer line.

Y Fig. 6 isa detail perspective rviewofc one.

of the indicator elements.

'rious other .mechanisms.

catoi's with a portion of the mechanism broken away for the sake of clearness. j

Fig. 11: is a detail "front'elevation ofthe indicators and their resetting devices; asthey appear through the openings in the machine cabinet.

Fig. 12 is a rear elevation partly broken away, showingthe' reartotalizer line "an'dlva- Fig. 13 is axperspective view showing the. appearance of a modified form 1 of this inventionasappliedto a. machine not havingtheusual amount indicators.

Fig. 14 is aside elevation of the totalizer selecting, mechanism, and the man'nerfin which themodified form of indicators is ap plied to the machine. i

Fig. 15shows the mechanism for selecting and operating the group of indicators ofth'e modified form, appropriate to the frontzto taliz'er line.

' Fig.-16 is a detail side elevationof "the 1 selecting and operating meansfor one of the V groups of indicators ofthe modified form- Fig. 17 is a top planview of the mechanism shown-inFig. 16.

Fig. 18 is a detail view of the mechanism for selecting ,the group of indicators of the modified form,appropriate to the upper .to-

Fig. 19 is a detail view partlylin'section, of the gronpof indicators of' the modified form, and the mechanism cooperating therewith, appropriate to the rear'totalizerline.

Fig. is; a rear clevationfofthethree groups of indicators of the modified form,

and some of the mechanism by which they are operated.

General description Machines of the type to which this invention is shown applied, may be provided with from one to thirty totalizers, and it has been found in the past that when it was desired to reset the operated totalizers to zero, it was necessary to reset all of them in order to be certain that none of them had any amounts therein, as there was no way by which the operator could tell whether or not all of the totalizers had been operated. This invention, therefore, provided means in the form of small indicators, bearing numbers corresponding with the numbers indicating the tota-lizers, which indicators are automatically brought into view through openings in the cabinet when their corresponding totalizers have been selected and engaged with the actuators.

With this invention in use, the operator by glancing at the indicators, can easily as certain which of the totalizers have been operated, and which it is, therefore, necessary to reset, thereby saving considerable time in the resetting operation, especially whcr a large number of totaliaers are employed.

Means is provided for manually returning the operated indicators to their normal nonindicating positions wnen the resetting opera tions of the corresponding totalizers have been completed.

Description of machine The machine to which the above invention is applied is of a type which is old andw ll known in the art, and described and illustratcd in detail in the patents above mentioned. It is, therefore, thought that it will be unnecessary to include anything but a brief description thereof in this application.

The machine is provided with a plurality of banks of amount keys 30 (Fig. 1), which are adapted to cooperate with the well known differential mechanism for adjusting indicators 32, as well as setting up appropriate type wheels (not shown), and adding the amounts set up, on one or more selected total izers. To the right of the amount banks are three banks of so called control keys 33, 34: and 35. Each of these banks contains nine keys, and each of these keys is adapted to select an appropriate totalizer. The means whereby the control keys select the totalizer will be hereinafter described.

Fig. 2 shows the second or middle control bank of keys 34, together with the differential mechanism which cooperates with this particular bank. The differential mechanisms for the first and third banks of control keys are a duplication of the differential mechanism for second bank of keys.

This differential mechanism consists of a driver l0, which is rocked first clockwise and then counter-clockwise about a hub 41, by means of a link 42' and a. Y-shaped lever 43, rocked by a pair of cams 44-, fast on a main drive shaft 45 of the machine. This main drive shaft is given a complete counter-clockwise rotation during each cycle of operation of the machine by mechanism very well known and shown in the above mentioned patents, and which will not be described herein.

The driver 40 is normally connected by means of a latch 46, to a differentially movable arm 47, loose on the hub ell. As the driver 40 moves in its clockwise direction, the differentially movable arm is carried with it until the forward end of a bell crank lever 48 carried by the differentially movable arm, strikes the inner end of whichever one of the keys in its appropriate bank has been depressed.

The latch 4E6 will then be disconnected from the driver &0, which will continue its clockwise movcment, leaving the differentially movable arm in whatever position it had reached when the latch was disengaged. Pivoted to the differentially movable arm a7 is a beam 49, which at its rear end is bifurcated, and cooperates with a pin 50, mounted on a link 51. The left hand end of the beam 49 is positioned in accordance with the differential movement of the arm 47, and after this movement of said arm has been completed, the link 51 is moved differentially, in accordance with the position of the arm 47, by means of a roller 52, carried by the Y--shaped lever 4&3, which cooperates with the beam and moves its bifurcated end to a position of differential adjustment appropriate to the adjustment of the differential arm 47.

At its lower end the link 51 is pivoted to an arm 53, loose on a rod 54, and secured to a spiral gear segment 55, which meshes with a spiral pinion 56, fast on a shaft 57. It can be seen om the above that the differential movement of the arm 47 in accordance with the key depressed, is through the link 51, arm 53, spiral gear segment 55 and spiral pinion 56, transmitted to the shaft 57, which through connections not shown in this machine, but old in the art, sets up an appropriate type wheel, in order that the amount or symbol on the depressed keys may be printed on an appropriate printing medium.

At its upper end the link 51 is pivoted to an indicator segment 58, fast on a sleeve 53$) surrounding a shaft 60, supported by the machine side frames. The segment 58 has teeth 61 formed thereon, which mesh with teeth 62 on an indicator set-ting rack 63, so that the differential movement imparted to the link 51,will be transmitted to the indicator rack 63, and position the indicator tablets 64, so that the appropriate one may be exposed at the proper time.

The indicator mechanism shown in Figure 21s old and very well known 1n the art and illustrated and described in Letters'Patent of Totalz'zcrs Machines of this type, as is well known, are provided with three lines of totalizers. Each totalizer line includes a plurality of totalizer wljeels 7 0, loosely mounted on a tube 71 (Fig. 12

The tubes 71 are carried at each end by frames 72 (Figs. 3 and 12) slidably mounted on shafts 73, in a manner well known in machines of this type, and shown inv Figures 3 and 12. Each totalizer on a totalizer line consists of one totalizer wheel. in each group of wheels, there being a group of ten wheels appropriate to each denomination. The totalizers are moved laterally of the machine, to bring any'desired totalizer into co-oper ative relation with the actuators 74, 12) adjusted bythe differential mechanism of the amount bank not shown herein, but

shown and described in the above mentioned patents.

vTotalizer selecting mechanism 12) in a segmental cam 78, loosely mounted.

on a stud 79. projecting from the machine side frame. There is one of these segmental cams co-operating with each of the three totalizer lines, and these cams 78 are connected by links 80, with segments 81, one of which is fast on the shaft and the other'two seg ments 81 are secured, one to each of the sleeves 59, previously described.

It will be remembered that also fast on the shaft 60 and the sleeves 59, are the indicator segments 58, which are differentially adjusted by the three banks of control keys. The dif ferential movement, therefore, of one of the differential arms 47, corresponding to a particular bank of control keys will through the segment 58, shaft 60, or onev of the sleeves 59, segment 81, and link 80, adjust its corresponding segmental cam 78 differentially, in accordance with the key depressed in the associated control bank. This differential movement of the cam 78, will slide the totalizer line appropriate thereto, laterally of the machine, in a manner which is very well known, and to bring the selected totalizers thereon into cooperative relation with the actuators.

Totalz'zer engaging mechanism Means is provided for rocking the totalizer lines, to engage the selected totalizers with the actuators after the desired totalizer on each line has been moved into alignment with the actuators. This rocking means is also very old and well known in machines of this type, and only enough thereof will be described in this application, to enable an inn derstanding of the invention.

Fast on each of the shafts 73, which support the totalizer lines, is an arm (Fig. 5), which carries a roller 91 projecting into a cam slot 92 in a guide plate 93, supported by the side frame. The arm 90 is pivoted to a link'94, which carries a pin 95 engaged by a hook 96, carried by a totalizer engaging and disengaging spider 97, loose on a stud 98. At the proper time in the operation of the machine the spider 97 is rocked first clockwise and then counter-cloclnvise to its normal position by mechanism which will be herein after described. 7

Upon the clockwise movement of the totalizer engaging and disengaging spider 97. the link 94 will rock the arm 90 and shaft 7 3 counter-clockwise, and at the same time, due to the shape of the cam slot 92 in the guide plate 93, it will move the tota'lizer line toward the center of the machine a suflicient distance to engage the selected totalizer with the actuators. The totalizer line will be held in this position until the proper amount has been added thereon, when it will be returned to its normal position, in a well known manner. Means for rocking the totalizer engaging and disengaging spider 97 first clockwise and then counter-clockwise to normal position, will now be described. Fast on the main drive shaft 45 (Fig. 5) of the machine, is a pair of cams 99, which co-operate with rollers carried by a lever 100, pivoted to a subframe of the machine. To the lever is pivoted a link 101, which at its lefthand end (Fig. 5) is slotted, and surrounds a stud 102, carried by a shifting lever not shown, since it forms no part of the invention. The link 101 is formed with a substantially square clearance opening in its center portion which surrounds the stud 98. The link 101 has a notch 103, which normally co-operates with a pin 104, carried by the totalizer engaging and disengaging spider 97. The formation of the cam 99 is such that at the proper time the lever 100 isrocked clockwise, to move the link 101 to the right to rock the spider 97 clockwise to move the selected totalizers into engagement with their actuators 74. When the proper amount has been added in the selected totalizer, the cams 99 rock the lever 100 counter-clockwise, which through the iiio above described mechanism returns the spider to its normal home position, and thereby returns he ed totalizer lines to their normal. posiciojiis to (llSQElgZgigG the selected totaliLA-Us "from thei actuator M.

Used in (Bic/M02 8 dicatoi' :1 tetalizcr indie One of t V in perspective in 7; mental. ind ice tor mcral or s].

sliatt licator Secured -cd indirest ore ing; position at The int i. i

in the indicator 7 are e imlica'tms in are numbered group from 1 from 11v resetting eaten in their necev'ssi 4 :or to rm don d a 7 manual 51 nients 116, :1 id any n'evi' :asly moved when the indie Yrs corresponding thereto exposed heir symbols will thereby be flocked counter-clockwise, and the inclieators will be returned to non-indicating positions, Where they will be held by their corresponding spring piungers 119.

Each of the indicat rs cooperates with the shaft 115 nest below it. In the normal positions of the parts the shaft 115 just below any of the indicators lies in the plane of that indicator and limits the counter-cloclnvise movement thereof. When an indicator is rocked clockwise to its indicating position, a tail 132 formed thereon, contacts the shaft 115 next below the operated indicator to limit its clockwise movement.

Indicator seZec-ting mechanism 11 view of tie indict tor selecting mechanism on an enlarged scale is shown in Figure 10. Supported by the middle one of the indicator -tra mes 113, for each of the groups of indicators, 2 s shown in Fig. 9, are two vertically i'nountod carriage guides 121 and These guides are cut away on the side next to the frame, in 0 'der to form a chain cl in which mounted a vert'cally slidable indicator-selecting carriage The carriage 122 norma ly rests at the bottom of the channel. formed by guides 121 and 135, and it is moved upwardly from this position (hits;- entially, in accordance with the differential movement of its corresponding control bank. The means whereby this mechanism is moved upwardly, will now he des :ribed.

in the groups of indicators corresponding to the front and back totalizer lines, the mechanism is as follows: Fast on the righthand ends (Figure 12), of the two sleeves 59, whic urround the shaft (30, i re the segments 81 also Figs. 5 and It will be recalled thz t th segments are adjusted differentially by the diilerential mechanism oi? their appropriate control banks, in order to to each segment 81 (Fig. is an upwardly extending link 125, which at its upper end is pivoted to one end or a lever 126, loose on a theft 12?, supported by the frames 113. At its lei hand end the lever 126 is bifurcated, and co-opcrates with pin 134:, on the indicetor selecting- 'arriage 12;.

When the segn'ient S1. rocked in clockh ection to an extent corresponding 10 hey depressed in its appropriate condlk. the link is lowered and rocks "or 126 clockwise to raise the Selecting hag-e 122 in the slide to med by guides to an extent corresponcinp; with the key press d.

The mechanism shown in Figure 7 is for positioning the indicator-selecting carriage 122 for the upper totalizer line, and this mechanism is a so identical with that above described, with the exception that the link 125 is pivoted at its lower end to an arm 133, fast on the shaft 60 instead ofbeing'secured to a segment, such as the one shown in Figures and 8. With this exception the mechanism operates in exactly the same maner as that previously described, and no further description thereof will be given. The corresponding parts in the different figures have been given the same reference numerals.

lmdh ca tor operating mechanism 9 'After the indicator-selecting carriages 122 have been moved upwardly differentially, in accordance with the keys depressed in their corresponding control banks, means is provided for operating the indicators so selected, and this means will'now be described.- As has already been pointed out, the indicator operating mechanism is actuated by the movement of the totalizer lines to their-"engaging positions, and the mechanism whereby the movement of the front totalizer line into engaging position operates the selected indicator in thegroup corresponding to this line,

. izer selected.

will now be described.

Each of the indicator-selecting carriages 122 carries an indicator actuator 129 (Figures 5, 7, 8', and 10) slidably mounted on studs 130 projecting laterally from the, carriage 122. Each of the actuators 129 (Fig. 9) has a finger 131 wide enough to "cooperate With tails 132 of the indicators 114 of three vertig cal'rows constituting one set of indicators, The indicator actuator 129'is normally held in its righthand' position, as shown in Figure 5, by means of a spring stretched between an upwardly extending ear of the indicator actuator 129, and an upwardly extending ear of the indicator-selecting carriage 122. lVhen the indicator-selecting carriage 122 is moved upwardly, the finger 131 of the actuator 129 is positioned behind the tail 132. of the indicator 114, corresponding to the totalben "soposition'ed, the actuator 129 is slid laterally to the'left, as viewed in Figure 5,

and when this" occurs,the finger 131 strikes the tail 132 of the selected indicator and rocks said indicator 114, the shaft 115 and the reset ting segment 116.clockwisefar enough to position the retaining arm 118 on the lower side of its appropriate'spring plunger 119, which will thereupon hold the partsin their moved- T he above described mechanism After the carriage 122 has mounted an indicator-actuator driver 142, which also has an opening surrounding the shaft 127. At its lefthand end the driver 142 is anvil-shaped and the lefthand edge thereof is parallel with the guides 121 and 135. The anvil-edge of the actuator driver is sufficiently wide toco-operate with the actuator 129 in any position to which this actuator may be moved by the indicator-selecting carriage 122.

At its righthand end the actuator driver 142 has a pin 143, (Fig. 5) which extends through a bifurcated end of a bell crank lever 144, loose on the shaft 112. At its other end the bell" crank lever 144 is'pivoted to a downwardly extendinglink 145, which at its lower end is connected to another bell crank lever 146, loosely mounted on a shaft 147, supported in the machine side frames.

The other arm of the :bell crank 146 has a cam slot 148 formed therein, with which a pin 149, carried on the upper end of alever 150, co-o'perates. The lever 15.0 is loosely 'mounted on a rod 151, and at its lower end wise, which movement through the yoke and'arm 1:53 moves the link 152 toward the right, to rock the lever 1'50 counter-clockwise. This movement of the lever 150, throughthe engagement of the pin 149 with the cam slot 148 in lever 146, rocks this lever in counterclockwise direction, thereby through the link 145, to rock the bell crank lever 144 also counter clockwise, and slide the indicator-' actuator driver 142 to the left. The anvil edge on the lefthand side of the actuator driver 142 will through its contact with an arm 157 of the indicator actuator 129, move said actuator toward the left against the tension of the spring 140. v

*The movement of the actuator 129 toward the l ft, as above described, rocks the selected indicator 114, to expose its symbol. Of course,-after a particular totalizer has once been operated through the train of mechanism above described, the symbol will remain exposed until the indicator is reset by theoperator. If the same totalizer is again operated before the indicator has been'reset the actuator 129-will move idly and have no effect upon the indicator.

"Mechanism will now be described whereby an indicator in the group corresponding to the upper. totalizer line will be moved toexpose its symbol when the upper totalizer line is rocked into totalizer engaging position;

This mechanism is shown in detail in Fig ure 7.

An anvil-shaped indicator actuator driver 164: is slidably mounted on the stud, 141 and the shaft 127. T hisactuator driver lGlis very similar to the actuator driver 142, previously described in the description of the mechanism operated by the front totaliz r line. The actuator driver 16 1 carries a pin 165, with which co-operates the upper end of a lever 106. the lower end of which has a hook 167, which lies beneath. the totalir-ier frame supporting shaft 73, for the upper totalizer line. lVhen the upper totalizer line is moved to engage the selected totalizer thereon with the actuator, the shaft 73 will str ke the hook 167 of the lever 166, and rock this lever counter-cloclmdse. and moving the actuator driver 16st to the left, which will, as previously described, slide the actuator 1329 to the left, for the purpose of moving the selected indicator 114 to expose its symbol.

The means for moving the selected indicator in the group corresponding to the hack totalizcr line, to expose its symbol is shown in Figure 8. This group of indicators has associated therewith an actuator driver 168, almost identical with the actuator driver 142, previously described. It is slidably mounted upon the stud 1 l1 and the shaft 127'. At its righthand. end the actuator driver 168 carries a pin 169, co-operating with a bifurcated end of a bell crank lever 179, loosely mounted on the shaft 112. The other arm of the bell crank lever 179 is pivoted to a link 171, which at its lower end is pivotally connected to an arm 172, of a lever 178, loo-se ly mounted on the shaft 117. The lever 173 has a downwardly extending arm 17 1, which has a cam slot 175 formed therein, through which projects a pin 176, carried by the upper end of an arm 177, loose on a rod 151. The arm 17 7 is connected by means of a yoke 178 to a downwardly extending arm 179, which is normally in the path of the totalizer frame supporting shaft 7 for the back totalizer line. It can be seen from the above description that when the back totalizer line is moved to engage the selected totalizer thereon with the actuators i, the arm 179 will be recited clockwise against the tension of the spring 180, connected to projection of the arm 179 and a projection of the bell crank lever 173.

The clockwise movement of the arm 179 and arm 177, moves the pin 17-3 upwardly in the cam slot 175, and. rocks the lever 173 counterclockwise, and through the linl; 171 rocks the bell crank lever 179 counterclockwise. This 111 vement will slide the indi ,atoractuat01.' driver 168 to the left and in the manner above described, move the indicator actuator 129 to the left, and moves the selected indicator 114 to expose its symbol,

where it will be held until it is reset by the operator.

Modified form of the ifluidlfitfOll A modified form of the invention is shown in Figures 13 to 29 inclusive. This form shows the invention adapted to a machine having no regular indicators, as has the machine shown in perspective in Figure 1. ll hen used in a machine of the type with no regular indicators, the three groups of used totalizer indicators 114: are placed in a horizontal position, across the top of the machine. The indicators 11% can be seen through holes in the cabinet, and the manualindicator r tting segments 116 extend through slo therein. The mechanism for dilferent-ialt selecting the totaliz-ers for 01- oration, that is, sliding the totalizcr lines laterally of the machmo, is shown 111 Figure This mechanism has already been de- Led in the early part of this specification, ant. it not believed to be necessary to repeat this description. The individual indica ing elcniients used in the modified form a.-.c identically the same as those used in the preferred form of the invention, previously described, and the same reference numerals will be given thereto.

The indicating elements are supported by laterally extending frames 190, supported by studs 191 and 192, projecting from brackets 193 supported 011 the back frame 194 of the machine, and hangers 195 carried by rods 196 and 197, supported. by the machine side frames. Although horizontally placed in the machine, the indicators have the same relative positions with each other that they have in the preferred form, previously described.

The retaining arms of the resetting segments 116, co operate with spring plungers 198 (Fig. 14), mounted in a cross-bar 199. (lo-operating with each of the groups of 111-- dicators is a selecting linger 200 (Fig. 16), the end of which is extended, as shown in Figure 17 and co-operates with all of the indicators in its group. The linger 209 is pivoted to the upper end of an arm 291 (Figures 15 and 16) loose on a shaft 202, sup ported by the machine side frame. The arm 201 is connected by means of a yoke 203. to an arm 20 1, pivoted to the lower end of a link 205, connected at its upper end to an extension 296, of a segment 207 fast on the left-hand end of the outside one of the sleeves 59, which surrounds the shaft 60. This segment is differentially adjusted by means of its appropriate control bank, in the manner well known in machines of this type, and previously described herein, and through this movement, moves the link 295 upwardly. thereby rocking the arm F291- and arm 201 clockwise about the shaft 202 to move the selecting finger 290 toward the right, as

harem viewed in Figure 15,and the extended end tioned in accordance with the key depressed in, the control. bank corresponding thereto, the bar 208 will be slid toward the left, as viewed in Figure 16. This bar 208 has two slots 211, which surround the studs 209 and 210.. hen. the bar 208 is forced to the left, the angular-slots 211cause the har to move upwardly, lyhen thisoccurs the end of the selectingv finger 200 will bebrought into contact, with the tail 132, of-whichever one ofv the indicators 114 it has selected and this indicator, will, then be rocked clockwise to expose its symbol, as in the preferred form.

' The means forrockingthe. selecting finger 200 and the bar 208, td operate the select- 2 ed indicator, in the group corresponding to the front totalizer line, will now be described. The bar 208 14 and 15) associated with this totalizer line carries a projecting pin 213, with which the upper end of an arm 214 co-operates. The arm 214 is loose on a rod 215, and is connected. by means of a hub with an arm 216, which has a cam slot 217 formed therein. (lo-operating with the cam slot 217 a pin 218, carried by the upperend of an arm 219, loose on a shaft 220 and connected by means of a yoke to an arm 221, connected a link 222 to an arm loose on a shaft 224. The arm is connected yoke 225, to an arm 226, whlch normally lies in thepath of the totalizer frame supporting shaft 73. supporting the front totalizer line. It can be seen from Figure 15. that'when the front totali-zerline is moved to engage the selected totalizer thereon with the actuators 74, the arnr226, yoke and arm 223 will be rocked clockwise, which movement through the link 222, rocks the arms 221 and 219 counteiclockwise.

Due to the conformationof the cam slot 217, the movement of the pin 218 when moved by the arm 2'19 rocks the arms 216 and 214 counterclockwise, and the upper end of the arm 214 by its contact With pin 2-13, and

moves the bar 208 to the left, and the slots 211 raise the lefthand end of the selecting finger 200, far enough to operate the select ed 1nd1cator114.

Figure 19 shows the mechanism for o3;e:'

. ating the bar 208, for the group of indicators 114 corresponding to the rear totalizer line.

The pin 213 on thebar 208 co-operates with the upperend of an arm 230, loosely supported by the shaft 215, and connected by meansof a yoke 231, to an arm 232, having a cam slot 233 formed at its lower end. A pin 234 carried by lever 235 co-operates with thecam slot 233. The lever 235 is loose onthe shaft220 and the lower end of this lever lies in the path of the totalizer frame supporting shaft 73'. for the rear totalizer line. T hc'lever 235 is normally held against the shaft 73" by means of a spring 236, stretched between an extension of the lever 2235 and spin on the arm 232. When the rear totalizer line moves to engage the selectedtotalizer thereornthe lever 235 is rocked clock-wise, anddue to the shape of the cam slot 233, the arms 232 and 230, are rocked conntcnclockwise, and the upper end of the arm 230 being against the pin 213, and moves the bar 208toward the left to operate the selectedindicator114 to exposeits symbol.

The means for adjusting the selecting finger 200 for the group of indicators correspondingto the rear totalizer line, is identical witlrtliat for the front line, and therefore it is not believed to be necessary to include any further description of this mechanism herein. i

In the group of totalizers corresponding to the upper totalizer line, the mechanism for actuating the selected indicator is very simple. The bar 208 for thistotalizer line carries a pin 240 (F 1;; 18) with which an up wardly extending arm 241 of a lever 242 cooperates. .This lever is pivoted on a stud supported by a downwardly extending ear of the frame 190, and the substantially horizontal ar1n243 enftends beneath the totalizer frame supporting shaft 73, for the upper to talizer line. :lVhen theupper totalizer line is moved to engage the selected totalizer thereon with the actuators 74, the lever 242 is rocked counterclockwise, andthrough the engagement of the arm 241 with the pin 240 on the bar 208, the bar is moved toward the lcft and raises the, selecting finger into engagemcnt with the tail of the selected indi indicia.

I l Vith these and incidental objects in view, the invention consists of certain novel fea tures ofv construction and combinations of parts, the essential elements of which are set forth in appended claims and a preferred form or embodiment of which is hereinafter described with reference to the drawings which accompany and form part of this specification.

What is claimed is: 1. In a cash register, thecombination of a cator 114 to operate the same to expose its plurality of totalizers carried in a frame frame supporting shaft; totalizerselecting means; a plurality of related indicators adaptez. to he selected by the tota cr selectiag meanes; and means operated by the totalr c the selicator to e pose the indicator to dien the selected totalizer is moved cit-ion to be operated by the actuators. a, cash rcqister, the combination of a '::y of ti'italizers *arried in a frame 7 love to engage a selected total- "th actuator, therefor; tot-slicer selectindicator for each totalizer to .ier arr amount is on the errediner all of the indicators adaptisplayed one time; means conwi 'ier selecting means to g incicator; and meal s indicator to its displ to mow nosi In a of the class described; the combinati in of a plurality of totaliseru; an indicator associated with each totalizer to indicate when i:

n a chi n e V to each inn; ,2-

"er. 2, machine of the class described; the combination of plurality of totaliz rsg an t Cfq fl' f '1 n t 1 me a n (1,. rennet W1 in 1 L0 aiiuei s o indicate when its corresponding tota izer has an amour -l.1ereon means move each indi- 'ato into displaying position; a se men ah shaved l nger-secs ci'mnccted Wl}, inoia-ao said segmental-shaped p eces ii -rang?" l in a line and closely to- ,Qlll" for resetting: all the indicators at sin stroke of the o niratoids ne er.

53, In machine of the class 'cribcd, the

combination of a nlnrality of totalizers; a coimnon support therefor; actuators therefor: totaliv selecting means; totalizer ences: plin'ality of indicalw s, h tot: or to designate when the :otalissers have been operated: a s ii'lable indi 'ator selecting carriage; an indicator actuator common to all indicators, and carried by said carriage and adapt-ed to sli re at vely and at right angles thereto;

talizcr sole hidden symbol; of tail on the indicator; operating means to contact the tail to adjust the indicator to expose the symbol, said tail adapted to remain out of cooperating relation with the operating means after being, operates; and a (lGJ cc to shift the indicator at will to move the tail back into coope'ating relation "With the operating means.

i". in a cash register, the combination of liners, a supporting shaft actuators, a plu 'ality of for each of said totalizers, n? selecting; the totalizer and operated, means for engaging slicer, and means actuated by so )Uill'iilllg shafts when the r, the combination of a i. means for differeni totalizers for actuation, heaters, one for each of said it is, ineai s for dii'lj'erentially selecting V indicators in accordance with the total selected, and means for engaging said and for operating said selected loser enter through the totalizer.

in an indicat'ng mechanism, the combion of an in die: tins? men'iber having a norhidden symbol, operating means for wait member to Xpose said symbol and to take the member from control oi the operating means, sha'lt carrying .aid member, and means to move the member into position to be controlled by the operating means and carried by said shaft and adapted to restore said symbol to its hidden position.

it). in a macl inc oil the ass described, the

z'ionihinatirni of a pin 'ality of totalizers; a plnr lit-y of ind ic ting elements, one for each actuating means to add into the a slidable member adjacent all of indii'iating elnnents; means for posiai i'ip; the idable member adjacent any cnlar one 01? qaid elements in order to i for operation; and operating means 1e slidabie member to adjust the selected alor element to indicate Whether an t is in the totalizer. in machine of the class described, the I nination oi. a olurality of totalizers; a pli rality of indicating; elements, one for nch er; actuating means to add into the or: a slidable member adjacent all of 'nd'cating elements; means for posi- 2 member adjacent any 1'' said elements in order to a member carried and i indicator crei r to indicate Whether an anioiiit is 11 the lUtiLrZOl.

'n mach i c class described, the

.o: of .cjf oi? totalizers; a nine. elements, one for ineans for the totalizers; a slidablemember adjacent all of said indicating means; means for positioning the slidable member adjacent any particular one of said elements in order to select it for operation; and a shiftable device carried by said slidable member for actuating the selected indicating element to indicate whether an amount is in the totalizer.

13. In a machine of the class described, the combination of a plurality of totalizers; a plurality of indicating elements, one for each totalizer; totalizer actuators; a slidable member adjacent all ofsaid indicating elements; means for positioning said member adjacent any particular one of said elements in order to select it for operation; a tail pro jecting from each of said indicating elements; and a shiftable device carried by said slidable member adapted to cooperate with the tail of the selected indicating element to move it into indicating position to indicate whether an amount is on the totalizer.

14. In a machine of the class described, a I

row of indicating elements, all of which are adapted to be displayed simultaneously; a frame member; means movable on said frame for selecting an element for operation; and means movably mounted on said selecting means for operating a selected element.

16. In a'machine of the class described, a row of indicating elements, all. of which are adapted to be displayed simultaneously; a frame member; means movable on said frame for selecting an element for operation; means movably mounted on said selecting means for operating a selected element; and a means cooperable directly with said operating means for actuating the same.

17. The combination of a lurality of indicating element-s, all of whic are adapted to be displayed simultaneously, movable means positionable to select any one of said elements for operation, and operating means for said mova le means having an engaging portion cooperable with said movable means in any one of its positions of adjustment.

18. The combination of a plurality of indicating elements arranged in a row, all of which are adapted to be displayed simultaneously; a selecting and operating member sl'idable along said row; and a slidable pitman provided with a Wide end cooperating with said member in any one of its positions.

In testimony whereof I aflix my signature.

, BERNIS M. SHIPLEY.

CERTIFICATE OF CORRECTION.

Patent No. 1,838,579. Granted December 29, 1931, to

BERNIS M. SHIPLEY.

It is hereby certified that error appears in the printed specification of the above numbered patent requiring correction as follows: Page 4, line 3, strike out the word "engaged"; page 6, line 102, after "indicators" insert the numeral 114, and line 111, after "extended" insert the word laterally; page 8, line 101, claim 9, strike out the word "and" first occurrence, and insert the comma and words said last named means being; and that the said Letters Patent should be read with these corrections therein that the same may conform to the record of the case in the Patent Office.

Signed and sealed this 16th day of February, A. D. 1932.

M. J. Moore, (Seal) Acting Commissioner of Patents. 

